from __future__ import unicode_literals

import datetime
import decimal
import itertools
import time

from wtforms import widgets
from wtforms.compat import text_type, izip
from wtforms.validators import StopValidation


__all__ = (
    'BooleanField', 'DecimalField', 'DateField', 'DateTimeField', 'FieldList',
    'FloatField', 'FormField', 'IntegerField', 'RadioField', 'SelectField',
    'SelectMultipleField', 'StringField',
)


_unset_value = object()


class DummyTranslations(object):
    def gettext(self, string):
        return string

    def ngettext(self, singular, plural, n):
        if n == 1:
            return singular

        return plural


class Field(object):
    """
    Field base class
    """
    errors = tuple()
    process_errors = tuple()
    raw_data = None
    validators = tuple()
    widget = None
    _formfield = True
    _translations = DummyTranslations()
    do_not_call_in_templates = True # Allow Django 1.4 traversal

    def __new__(cls, *args, **kwargs):
        if '_form' in kwargs and '_name' in kwargs:
            return super(Field, cls).__new__(cls)
        else:
            return UnboundField(cls, *args, **kwargs)

    def __init__(self, label=None, validators=None, filters=tuple(),
                 description='', id=None, default=None, widget=None,
                 _form=None, _name=None, _prefix='', _translations=None):
        """
        Construct a new field.

        :param label:
            The label of the field.
        :param validators:
            A sequence of validators to call when `validate` is called.
        :param filters:
            A sequence of filters which are run on input data by `process`.
        :param description:
            A description for the field, typically used for help text.
        :param id:
            An id to use for the field. A reasonable default is set by the form,
            and you shouldn't need to set this manually.
        :param default:
            The default value to assign to the field, if no form or object
            input is provided. May be a callable.
        :param widget:
            If provided, overrides the widget used to render the field.
        :param _form:
            The form holding this field. It is passed by the form itself during
            construction. You should never pass this value yourself.
        :param _name:
            The name of this field, passed by the enclosing form during its
            construction. You should never pass this value yourself.
        :param _prefix:
            The prefix to prepend to the form name of this field, passed by
            the enclosing form during construction.

        If `_form` and `_name` isn't provided, an :class:`UnboundField` will be
        returned instead. Call its :func:`bind` method with a form instance and
        a name to construct the field.
        """
        if _translations is not None:
            self._translations = _translations

        self.default = default
        self.description = description
        self.filters = filters
        self.flags = Flags()
        self.name = _prefix + _name
        self.short_name = _name
        self.type = type(self).__name__
        self.validators = validators or list(self.validators)

        self.id = id or self.name
        self.label = Label(self.id, self.gettext(label) if label is not None else self.gettext(_name.replace('_', ' ').title()))

        if widget is not None:
            self.widget = widget

        for v in self.validators:
            flags = getattr(v, 'field_flags', ())
            for f in flags:
                setattr(self.flags, f, True)

    def __unicode__(self):
        """
        Returns a HTML representation of the field. For more powerful rendering,
        see the `__call__` method.
        """
        return self()

    def __str__(self):
        """
        Returns a HTML representation of the field. For more powerful rendering,
        see the `__call__` method.
        """
        return self()

    def __html__(self):
        """
        Returns a HTML representation of the field. For more powerful rendering,
        see the `__call__` method.
        """
        return self()

    def __call__(self, **kwargs):
        """
        Render this field as HTML, using keyword args as additional attributes.

        Any HTML attribute passed to the method will be added to the tag
        and entity-escaped properly.
        """
        return self.widget(self, **kwargs)

    def gettext(self, string):
        return self._translations.gettext(string)

    def ngettext(self, singular, plural, n):
        return self._translations.ngettext(singular, plural, n)

    def validate(self, form, extra_validators=tuple()):
        """
        Validates the field and returns True or False. `self.errors` will
        contain any errors raised during validation. This is usually only
        called by `Form.validate`.

        Subfields shouldn't override this, but rather override either
        `pre_validate`, `post_validate` or both, depending on needs.

        :param form: The form the field belongs to.
        :param extra_validators: A sequence of extra validators to run.
        """
        self.errors = list(self.process_errors)
        stop_validation = False

        # Call pre_validate
        try:
            self.pre_validate(form)
        except StopValidation as e:
            if e.args and e.args[0]:
                self.errors.append(e.args[0])
            stop_validation = True
        except ValueError as e:
            self.errors.append(e.args[0])

        # Run validators
        if not stop_validation:
            chain = itertools.chain(self.validators, extra_validators)
            stop_validation = self._run_validation_chain(form, chain)

        # Call post_validate
        try:
            self.post_validate(form, stop_validation)
        except ValueError as e:
            self.errors.append(e.args[0])

        return len(self.errors) == 0

    def _run_validation_chain(self, form, validators):
        """
        Run a validation chain, stopping if any validator raises StopValidation.

        :param form: The Form instance this field beongs to.
        :param validators: a sequence or iterable of validator callables.
        :return: True if validation was stopped, False otherwise.
        """
        for validator in validators:
            try:
                validator(form, self)
            except StopValidation as e:
                if e.args and e.args[0]:
                    self.errors.append(e.args[0])
                return True
            except ValueError as e:
                self.errors.append(e.args[0])

        return False

    def pre_validate(self, form):
        """
        Override if you need field-level validation. Runs before any other
        validators.

        :param form: The form the field belongs to.
        """
        pass

    def post_validate(self, form, validation_stopped):
        """
        Override if you need to run any field-level validation tasks after
        normal validation. This shouldn't be needed in most cases.

        :param form: The form the field belongs to.
        :param validation_stopped:
            `True` if any validator raised StopValidation.
        """
        pass

    def process(self, formdata, data=_unset_value):
        """
        Process incoming data, calling process_data, process_formdata as needed,
        and run filters.

        If `data` is not provided, process_data will be called on the field's
        default.

        Field subclasses usually won't override this, instead overriding the
        process_formdata and process_data methods. Only override this for
        special advanced processing, such as when a field encapsulates many
        inputs.
        """
        self.process_errors = []
        if data is _unset_value:
            try:
                data = self.default()
            except TypeError:
                data = self.default

        self.object_data = data

        try:
            self.process_data(data)
        except ValueError as e:
            self.process_errors.append(e.args[0])

        if formdata:
            try:
                if self.name in formdata:
                    self.raw_data = formdata.getlist(self.name)
                else:
                    self.raw_data = []
                self.process_formdata(self.raw_data)
            except ValueError as e:
                self.process_errors.append(e.args[0])

        for filter in self.filters:
            try:
                self.data = filter(self.data)
            except ValueError as e:
                self.process_errors.append(e.args[0])

    def process_data(self, value):
        """
        Process the Python data applied to this field and store the result.

        This will be called during form construction by the form's `kwargs` or
        `obj` argument.

        :param value: The python object containing the value to process.
        """
        self.data = value

    def process_formdata(self, valuelist):
        """
        Process data received over the wire from a form.

        This will be called during form construction with data supplied
        through the `formdata` argument.

        :param valuelist: A list of strings to process.
        """
        if valuelist:
            self.data = valuelist[0]

    def populate_obj(self, obj, name):
        """
        Populates `obj.<name>` with the field's data.

        :note: This is a destructive operation. If `obj.<name>` already exists,
               it will be overridden. Use with caution.
        """
        setattr(obj, name, self.data)


class UnboundField(object):
    _formfield = True
    creation_counter = 0

    def __init__(self, field_class, *args, **kwargs):
        UnboundField.creation_counter += 1
        self.field_class = field_class
        self.args = args
        self.kwargs = kwargs
        self.creation_counter = UnboundField.creation_counter

    def bind(self, form, name, prefix='', translations=None, **kwargs):
        return self.field_class(_form=form, _prefix=prefix, _name=name, _translations=translations, *self.args, **dict(self.kwargs, **kwargs))

    def __repr__(self):
        return '<UnboundField(%s, %r, %r)>' % (self.field_class.__name__, self.args, self.kwargs)


class Flags(object):
    """
    Holds a set of boolean flags as attributes.

    Accessing a non-existing attribute returns False for its value.
    """
    def __getattr__(self, name):
        if name.startswith('_'):
            return super(Flags, self).__getattr__(name)
        return False

    def __contains__(self, name):
        return getattr(self, name)

    def __repr__(self):
        flags = (name for name in dir(self) if not name.startswith('_'))
        return '<wtforms.fields.Flags: {%s}>' % ', '.join(flags)


class Label(object):
    """
    An HTML form label.
    """
    def __init__(self, field_id, text):
        self.field_id = field_id
        self.text = text

    def __str__(self):
        return self()

    def __unicode__(self):
        return self()

    def __html__(self):
        return self()

    def __call__(self, text=None, **kwargs):
        if 'for_' in kwargs:
            kwargs['for'] = kwargs.pop('for_')
        else:
            kwargs.setdefault('for', self.field_id)

        attributes = widgets.html_params(**kwargs)
        return widgets.HTMLString('<label %s>%s</label>' % (attributes, text or self.text))

    def __repr__(self):
        return 'Label(%r, %r)' % (self.field_id, self.text)


class SelectFieldBase(Field):
    option_widget = widgets.Option()

    """
    Base class for fields which can be iterated to produce options.

    This isn't a field, but an abstract base class for fields which want to
    provide this functionality.
    """
    def __init__(self, label=None, validators=None, option_widget=None, **kwargs):
        super(SelectFieldBase, self).__init__(label, validators, **kwargs)

        if option_widget is not None:
            self.option_widget = option_widget

    def iter_choices(self):
        """
        Provides data for choice widget rendering. Must return a sequence or
        iterable of (value, label, selected) tuples.
        """
        raise NotImplementedError()

    def __iter__(self):
        opts = dict(widget=self.option_widget, _name=self.name, _form=None)
        for i, (value, label, checked) in enumerate(self.iter_choices()):
            opt = self._Option(label=label, id='%s-%d' % (self.id, i), **opts)
            opt.process(None, value)
            opt.checked = checked
            yield opt

    class _Option(Field):
        checked = False

        def _value(self):
            return text_type(self.data)


class SelectField(SelectFieldBase):
    widget = widgets.Select()

    def __init__(self, label=None, validators=None, coerce=text_type, choices=None, **kwargs):
        super(SelectField, self).__init__(label, validators, **kwargs)
        self.coerce = coerce
        self.choices = choices

    def iter_choices(self):
        for value, label in self.choices:
            yield (value, label, self.coerce(value) == self.data)

    def process_data(self, value):
        try:
            self.data = self.coerce(value)
        except (ValueError, TypeError):
            self.data = None

    def process_formdata(self, valuelist):
        if valuelist:
            try:
                self.data = self.coerce(valuelist[0])
            except ValueError:
                raise ValueError(self.gettext('Invalid Choice: could not coerce'))

    def pre_validate(self, form):
        for v, _ in self.choices:
            if self.data == v:
                break
        else:
            raise ValueError(self.gettext('Not a valid choice'))


class SelectMultipleField(SelectField):
    """
    No different from a normal select field, except this one can take (and
    validate) multiple choices.  You'll need to specify the HTML `rows`
    attribute to the select field when rendering.
    """
    widget = widgets.Select(multiple=True)

    def iter_choices(self):
        for value, label in self.choices:
            selected = self.data is not None and self.coerce(value) in self.data
            yield (value, label, selected)

    def process_data(self, value):
        try:
            self.data = list(self.coerce(v) for v in value)
        except (ValueError, TypeError):
            self.data = None

    def process_formdata(self, valuelist):
        try:
            self.data = list(self.coerce(x) for x in valuelist)
        except ValueError:
            raise ValueError(self.gettext('Invalid choice(s): one or more data inputs could not be coerced'))

    def pre_validate(self, form):
        if self.data:
            values = list(c[0] for c in self.choices)
            for d in self.data:
                if d not in values:
                    raise ValueError(self.gettext("'%(value)s' is not a valid choice for this field") % dict(value=d))


class RadioField(SelectField):
    """
    Like a SelectField, except displays a list of radio buttons.

    Iterating the field will produce subfields (each containing a label as
    well) in order to allow custom rendering of the individual radio fields.
    """
    widget = widgets.ListWidget(prefix_label=False)
    option_widget = widgets.RadioInput()


class StringField(Field):
    """
    This field is the base for most of the more complicated fields, and
    represents an ``<input type="text">``.
    """
    widget = widgets.TextInput()

    def process_formdata(self, valuelist):
        if valuelist:
            self.data = valuelist[0]
        else:
            self.data = ''

    def _value(self):
        return text_type(self.data) if self.data is not None else ''


class IntegerField(Field):
    """
    A text field, except all input is coerced to an integer.  Erroneous input
    is ignored and will not be accepted as a value.
    """
    widget = widgets.TextInput()

    def __init__(self, label=None, validators=None, **kwargs):
        super(IntegerField, self).__init__(label, validators, **kwargs)

    def _value(self):
        if self.raw_data:
            return self.raw_data[0]
        elif self.data is not None:
            return text_type(self.data)
        else:
            return ''

    def process_formdata(self, valuelist):
        if valuelist:
            try:
                self.data = int(valuelist[0])
            except ValueError:
                self.data = None
                raise ValueError(self.gettext('Not a valid integer value'))


class DecimalField(Field):
    """
    A text field which displays and coerces data of the `decimal.Decimal` type.

    :param places:
        How many decimal places to quantize the value to for display on form.
        If None, does not quantize value.
    :param rounding:
        How to round the value during quantize, for example
        `decimal.ROUND_UP`. If unset, uses the rounding value from the
        current thread's context.
    """
    widget = widgets.TextInput()

    def __init__(self, label=None, validators=None, places=2, rounding=None, **kwargs):
        super(DecimalField, self).__init__(label, validators, **kwargs)
        self.places = places
        self.rounding = rounding

    def _value(self):
        if self.raw_data:
            return self.raw_data[0]
        elif self.data is not None:
            if self.places is not None:
                if hasattr(self.data, 'quantize'):
                    exp = decimal.Decimal('.1') ** self.places
                    if self.rounding is None:
                        quantized = self.data.quantize(exp)
                    else:
                        quantized = self.data.quantize(exp, rounding=self.rounding)
                    return text_type(quantized)
                else:
                    # If for some reason, data is a float or int, then format
                    # as we would for floats using string formatting.
                    format = '%%0.%df' % self.places
                    return format % self.data
            else:
                return text_type(self.data)
        else:
            return ''

    def process_formdata(self, valuelist):
        if valuelist:
            try:
                self.data = decimal.Decimal(valuelist[0])
            except (decimal.InvalidOperation, ValueError):
                self.data = None
                raise ValueError(self.gettext('Not a valid decimal value'))


class FloatField(Field):
    """
    A text field, except all input is coerced to an float.  Erroneous input
    is ignored and will not be accepted as a value.
    """
    widget = widgets.TextInput()

    def __init__(self, label=None, validators=None, **kwargs):
        super(FloatField, self).__init__(label, validators, **kwargs)

    def _value(self):
        if self.raw_data:
            return self.raw_data[0]
        elif self.data is not None:
            return text_type(self.data)
        else:
            return ''

    def process_formdata(self, valuelist):
        if valuelist:
            try:
                self.data = float(valuelist[0])
            except ValueError:
                self.data = None
                raise ValueError(self.gettext('Not a valid float value'))


class BooleanField(Field):
    """
    Represents an ``<input type="checkbox">``.
    """
    widget = widgets.CheckboxInput()

    def __init__(self, label=None, validators=None, **kwargs):
        super(BooleanField, self).__init__(label, validators, **kwargs)

    def process_data(self, value):
        self.data = bool(value)

    def process_formdata(self, valuelist):
        # Checkboxes and submit buttons simply do not send a value when
        # unchecked/not pressed. So the actual value="" doesn't matter for
        # purpose of determining .data, only whether one exists or not.
        self.data = bool(valuelist)

    def _value(self):
        if self.raw_data:
            return text_type(self.raw_data[0])
        else:
            return 'y'


class DateTimeField(Field):
    """
    A text field which stores a `datetime.datetime` matching a format.
    """
    widget = widgets.TextInput()

    def __init__(self, label=None, validators=None, format='%Y-%m-%d %H:%M:%S', **kwargs):
        super(DateTimeField, self).__init__(label, validators, **kwargs)
        self.format = format

    def _value(self):
        if self.raw_data:
            return ' '.join(self.raw_data)
        else:
            return self.data and self.data.strftime(self.format) or ''

    def process_formdata(self, valuelist):
        if valuelist:
            date_str = ' '.join(valuelist)
            try:
                self.data = datetime.datetime.strptime(date_str, self.format)
            except ValueError:
                self.data = None
                raise ValueError(self.gettext('Not a valid datetime value'))


class DateField(DateTimeField):
    """
    Same as DateTimeField, except stores a `datetime.date`.
    """
    def __init__(self, label=None, validators=None, format='%Y-%m-%d', **kwargs):
        super(DateField, self).__init__(label, validators, format, **kwargs)

    def process_formdata(self, valuelist):
        if valuelist:
            date_str = ' '.join(valuelist)
            try:
                self.data = datetime.datetime.strptime(date_str, self.format).date()
            except ValueError:
                self.data = None
                raise ValueError(self.gettext('Not a valid date value'))


class FormField(Field):
    """
    Encapsulate a form as a field in another form.

    :param form_class:
        A subclass of Form that will be encapsulated.
    :param separator:
        A string which will be suffixed to this field's name to create the
        prefix to enclosed fields. The default is fine for most uses.
    """
    widget = widgets.TableWidget()

    def __init__(self, form_class, label=None, validators=None, separator='-', **kwargs):
        super(FormField, self).__init__(label, validators, **kwargs)
        self.form_class = form_class
        self.separator = separator
        self._obj = None
        if self.filters:
            raise TypeError('FormField cannot take filters, as the encapsulated data is not mutable.')
        if validators:
            raise TypeError('FormField does not accept any validators. Instead, define them on the enclosed form.')

    def process(self, formdata, data=_unset_value):
        if data is _unset_value:
            try:
                data = self.default()
            except TypeError:
                data = self.default
            self._obj = data

        self.object_data = data

        prefix = self.name + self.separator
        if isinstance(data, dict):
            self.form = self.form_class(formdata=formdata, prefix=prefix, **data)
        else:
            self.form = self.form_class(formdata=formdata, obj=data, prefix=prefix)

    def validate(self, form, extra_validators=tuple()):
        if extra_validators:
            raise TypeError('FormField does not accept in-line validators, as it gets errors from the enclosed form.')
        return self.form.validate()

    def populate_obj(self, obj, name):
        candidate = getattr(obj, name, None)
        if candidate is None:
            if self._obj is None:
                raise TypeError('populate_obj: cannot find a value to populate from the provided obj or input data/defaults')
            candidate = self._obj
            setattr(obj, name, candidate)

        self.form.populate_obj(candidate)

    def __iter__(self):
        return iter(self.form)

    def __getitem__(self, name):
        return self.form[name]

    def __getattr__(self, name):
        return getattr(self.form, name)

    @property
    def data(self):
        return self.form.data

    @property
    def errors(self):
        return self.form.errors


class FieldList(Field):
    """
    Encapsulate an ordered list of multiple instances of the same field type,
    keeping data as a list.

    >>> authors = FieldList(TextField('Name', [validators.required()]))

    :param unbound_field:
        A partially-instantiated field definition, just like that would be
        defined on a form directly.
    :param min_entries:
        if provided, always have at least this many entries on the field,
        creating blank ones if the provided input does not specify a sufficient
        amount.
    :param max_entries:
        accept no more than this many entries as input, even if more exist in
        formdata.
    """
    widget=widgets.ListWidget()

    def __init__(self, unbound_field, label=None, validators=None, min_entries=0,
                 max_entries=None, default=tuple(), **kwargs):
        super(FieldList, self).__init__(label, validators, default=default, **kwargs)
        if self.filters:
            raise TypeError('FieldList does not accept any filters. Instead, define them on the enclosed field.')
        assert isinstance(unbound_field, UnboundField), 'Field must be unbound, not a field class'
        self.unbound_field = unbound_field
        self.min_entries = min_entries
        self.max_entries = max_entries
        self.last_index = -1
        self._prefix = kwargs.get('_prefix', '')

    def process(self, formdata, data=_unset_value):
        self.entries = []
        if data is _unset_value or not data:
            try:
                data = self.default()
            except TypeError:
                data = self.default

        self.object_data = data

        if formdata:
            indices = sorted(set(self._extract_indices(self.name, formdata)))
            if self.max_entries:
                indices = indices[:self.max_entries]

            idata = iter(data)
            for index in indices:
                try:
                    obj_data = next(idata)
                except StopIteration:
                    obj_data = _unset_value
                self._add_entry(formdata, obj_data, index=index)
        else:
            for obj_data in data:
                self._add_entry(formdata, obj_data)

        while len(self.entries) < self.min_entries:
            self._add_entry(formdata)

    def _extract_indices(self, prefix, formdata):
        """
        Yield indices of any keys with given prefix.

        formdata must be an object which will produce keys when iterated.  For
        example, if field 'foo' contains keys 'foo-0-bar', 'foo-1-baz', then
        the numbers 0 and 1 will be yielded, but not neccesarily in order.
        """
        offset = len(prefix) + 1
        for k in formdata:
            if k.startswith(prefix):
                k = k[offset:].split('-', 1)[0]
                if k.isdigit():
                    yield int(k)

    def validate(self, form, extra_validators=tuple()):
        """
        Validate this FieldList.

        Note that FieldList validation differs from normal field validation in
        that FieldList validates all its enclosed fields first before running any
        of its own validators.
        """
        self.errors = []

        # Run validators on all entries within
        for subfield in self.entries:
            if not subfield.validate(form):
                self.errors.append(subfield.errors)

        chain = itertools.chain(self.validators, extra_validators)
        stop_validation = self._run_validation_chain(form, chain)

        return len(self.errors) == 0

    def populate_obj(self, obj, name):
        values = getattr(obj, name, None)
        try:
            ivalues = iter(values)
        except TypeError:
            ivalues = iter([])

        candidates = itertools.chain(ivalues, itertools.repeat(None))
        _fake = type(str('_fake'), (object, ), {})
        output = []
        for field, data in izip(self.entries, candidates):
            fake_obj = _fake()
            fake_obj.data = data
            field.populate_obj(fake_obj, 'data')
            output.append(fake_obj.data)

        setattr(obj, name, output)

    def _add_entry(self, formdata=None, data=_unset_value, index=None):
        assert not self.max_entries or len(self.entries) < self.max_entries, \
            'You cannot have more than max_entries entries in this FieldList'
        new_index = self.last_index = index or (self.last_index + 1)
        name = '%s-%d' % (self.short_name, new_index)
        id   = '%s-%d' % (self.id, new_index)
        field = self.unbound_field.bind(form=None, name=name, prefix=self._prefix, id=id)
        field.process(formdata, data)
        self.entries.append(field)
        return field

    def append_entry(self, data=_unset_value):
        """
        Create a new entry with optional default data.

        Entries added in this way will *not* receive formdata however, and can
        only receive object data.
        """
        return self._add_entry(data=data)

    def pop_entry(self):
        """ Removes the last entry from the list and returns it. """
        entry = self.entries.pop()
        self.last_index -= 1
        return entry

    def __iter__(self):
        return iter(self.entries)

    def __len__(self):
        return len(self.entries)

    def __getitem__(self, index):
        return self.entries[index]

    @property
    def data(self):
        return [f.data for f in self.entries]
